Anti-seismic(?) building = expensive, complicated, elitist, until today.
Vs.
Gravity = anti-seismic(!), economical, simple, affordable, as of today.
In this section, we explain how Gravity works and the dynamics that make it brilliant.
We are looking for institutions to deepen their dynamics and enter the history of earthquake engineering by writing the new rules.
If you are interested in its practical applications, click below,
we are also looking for companies to exploit the potential of its patent, develop it and become the leaders in anti-seismic construction.
Built Life Cycle
For watching the full video on better definition, click on the video.
Built Life Cycle
The Built Life Cycle is a way of looking at homes, office buildings, factories, schools, hospitals, roads, bridges, railways and other parts of the built environment over their entire life cycle.
Major Life Cycle stages include design, construction, operation, demolition and waste treatment.
Gravity, even if ingenious and revolutionary, is an extremely basic construction technique.
Changing completely the concept of "wall" and tackling the concept of “solidity”
from a perspective which is completely different from any previous one,
it may affect all the fundamental construction aspects of the Built Life Cycle
because it completely changes the way of conceiving a building
and the factors to be taken into consideration along all the process,
due to the way of acting of its internal forces
and its way of reacting to the external ones.
Therefore, Gravity will impact enormously on the initial part of the project
because factors like transforming all the vertical forces into transversal ones,
acting on lateral shoulders instead of discharging their pressure on the ground,
will change the entire process of project planning.
Gravity will also impact the whole structure assembling planning:
building up constructions utilizing this dry technique can extremely reduce the environmental impact, eliminating the need for chemical binders,
with no water and without foundations.
It can also integrate other forms of constructions,
making lighter the top floors of a skyscraper
or reinforcing a medieval wall damaged or partially destroyed by a seism.
The entire Built Life Cycle is impacted as, at the end of its life,
Gravity will not be demolished but simply dismantled
and it will be ready to be assembled somewhere else,
with no debris and very little waste to be treated.
R&D: the last mile
to the success of Gravity
R&D costs for Gravity will be important;
new rules are all to be written,
and tests on dynamics and materials are all to be done.
Whoever starts risks entering history.
If you can help us by promoting us in the academic world
and industrial research, contact us;
we have a universe to explore and design together!
Gravity can change the history of anti-seismic construction,
it can change the way of dealing with the issue of safety,
and it can change the positioning of your company on the market.
Contact us